Same as the book problem but different values.
a suction device is being designed based on the...
Engineering, 14.09.2019 00:20 Baby010391
Same as the book problem but different values.
a suction device is being designed based on the venturi principle
to lift objucts submerged in water. the operating water temperature
is 50 c. the suction cup is located 1.3 m below the water surface,
and the venturi throat is located 1 m above the the water. the
atmospheric pressure is 100 kpa. the ratio of the throat area
(i. e., the constricted area) to the exit area is 1/4, and the exit
area is 0.001 m squared. the area of the suction cup is 0.25 m
squared.
a. find the velocity of the water at the exit for maximum lift
condition.
b. find the volume discharge through the system for maximum lift
condition.
c. find the maximum load the suction cup can support.
state explicitly the restriction that constrains the maximum lift
(or minimum pressure in the system).
Answers: 2
Another question on Engineering
Engineering, 03.07.2019 14:10
Amass of 1.5 kg of air at 120 kpa and 24°c is contained in a gas-tight, frictionless piston-cylinder device. the air is now compressed to a final pressure of 720 kpa. during the process, heat is transferred from the air such that the temperature inside the cylinder remains constant. calculate the boundary work input during this process.
Answers: 2
Engineering, 03.07.2019 19:30
When using the ohmmeter function of a digital multimeter, the leads are placed in what position relative to the component being tested? a. parallel b. control c. series d. line
Answers: 3
Engineering, 04.07.2019 18:10
What difference(s) did you notice using a pneumatic circuit over hydraulic circuit.explain why the pneumatic piston stumbles when it hits an obstacle.
Answers: 2
Engineering, 04.07.2019 18:10
Water in a partially filled large tank is to be supplied to the roof top, which is 8 m above the water level in the tank, through a 2.2-cm-internal-diameter pipe by maintaining a constant air pressure of 300 kpa (gage) in the tank. if the head loss in the piping is 2 m of water, determine the discharge rate of the supply of water to the roof top in liters per second.
Answers: 3
You know the right answer?
Questions
Health, 06.09.2021 19:00
Chemistry, 06.09.2021 19:00
Biology, 06.09.2021 19:00
Mathematics, 06.09.2021 19:00
English, 06.09.2021 19:10
History, 06.09.2021 19:10
Social Studies, 06.09.2021 19:10
